The effect of the ploidy level and genetic background of Sphagnum denticulatum on its morphology and ecological requirements

• Autorzy: Melosik I.
• Języki publikacji: EN

Abstrakty

EN

This paper presents a current study on the morphology, genetic variability, and ecological requirements of the gametophytically diploid S. denticulatum (Bryophyta, Sphagnaceae). Its broad variations in morphology and physiology, coupled with its low genetic variability, may be explained by epigenetic remodeling in response to environmental heterogeneity. Phenotypes initiated via a plastic response can be canalized in the stable and predictable conditions on the bottom of Lobelia lakes. The problem of the different development of these isolated populations is a matter for further taxonomic studies and discussion. Taking into account the great physiological tolerance and massive development of S. denticulatum, predominantly in man-made and man-modified habitats, the question arises: how far should we go to protect this species? This is particularly important at sites where it threatens the survival of other protected plants.

Słowa kluczowe

EN

Sphagnum denticulatum; polyploidy; morphological variability; genetic variability; ecological requirements; epigenetic remodeling

• Wydawca: Institute of Oceanography University of Gdańsk
• Czasopismo: Oceanological and Hydrobiological Studies
• Rocznik: 2009
• Tom: Vol. 38, No.4
• Strony: 153--164
• Opis fizyczny: bibliogr. 84 poz.

Twórcy

autor

Melosik I.

• Department of Genetics, Adam Mickiewicz University ul. Umultowska 89, 61-614 Poznań, Poland,

Bibliografia

• 1.Adams K.L., Wendel J.F., 2005, Novel patterns of gene expression in polyploid plants. Trends Genet. 21(10): 539-43
• 2.Adams K.L., Cronn R., Percifield R., Wendel J.F., 2003, Genes duplicated by polyploidy show unequal contributions to the transcriptome and organ-specific reciprocal silencing. Proc. Natl. Acad. Sci USA 100(8): 4649-54
• 3.Andersson L., 1990, The driving force species concept and ecology. Taxon 39: 375-82
• 4.Alperti P., Simms E., 2002, The relative advantages of plasticity and fixity in different environments: when is it good for a plant to adjust? Evol. Ecol. 16: 285-97
• 5.Baker H. G., 1965. Characteristics and modes of origin of weeds. [in]: Baker H. G., Stebbins G. L., (eds.) The genetics of colonizing species, New York, Academic Press, 147-72
• 6.Brown J.S., Eckert Ch., 2005, Evolutionary increase in sexual and clonal reproductive capacity during biological invasion in an aquatic plant Butomus umbellatus (Butomaceae). Am. J. Bot. 92(3): 495-502
• 7.Brzeg A., Melosik I., Stachnowicz W., Stebel A., 2000, Outline phytosociological scale and ecology of three related species of peatmosses - Sphagnum subsecundum s.l., in the light of chosen data from Poland. [in]: Krzakowa M., Melosik I., (eds.) The variability in Polish populations of Sphagnum taxa (Subsecunda section), according to morphological, anatomical and biochemical traits, Poznań, Bogucki Wyd. Naukowe, pp. 48-59 + 3 tabs
• 8.Buerkle C.A., Morris R.J., Asmussen M.A., Rieseberg L.H., 2000, The likelihood of homoploid hybrid speciation. Heredity 84(4): 441-51
• 9.Burke J.M., Arnold M.L., 2001, Genetics and the fitness of hybrids. Annu. Rev. Genet. 35: 31-52
• 10.Chen Z.J., Pickaard C.S., 1997, Transcriptional analysis of nucleolar dominance in polyploid plants: biased expression/silencing of progenitor rRNA genes is developmentally regulated in Brassica. Proc. Natl. Acad. Sci USA 1: 94(7): 3442-7
• 11.Chen Z. J., Ni Z., 2006, Mechanisms of genomic rearrangements and gene expression changes in plant polyploids. BioEssays 28: 240-52
• 12.Comai L., 2000, Genetic and epigenetic interactions in allopolyploid plants. Plant Mol. Biol. 43(2-3): 387-99
• 13.Comai L., 2005a, The advantages and disadvantages of being polyploid. Nature Rev. Genet. 6: 836-46
• 14.Comai L., 2005b, Genomic changes in synthetic Arabidopsis polyploids. The Plant J. 41: 221-30
• 15.Comai L., Tyagi A.P., Winter K., Holmes-Davis R., Reynolds S.H., Stevens Y., Byers B., 2000,Phenotypic instability and rapid gene silencing in newly formed Arabidopsis allotetraploids. The Plant Cell 12: 1551-67
• 16.Cracraft C., 1983, Species concepts and speciation analysis. Ornithology 1: 159-87
• 17.Daniels R.E., 1993, Phenotypic and Genotypic Variation in Sphagnum. Adv. Bryol. 5: 31-60
• 18.Debat V., David P., 2001, Mapping phenotypes: canalization, plasticity and developmental stability. Trends Ecol. Evol. 16: 555-61
• 19.Donoghue M.J., 1985, A critique of the biological species concept and recommendations for a phylogenetic alternative. Bryologist 88: 172-81
• 20.Doyle J.J., Doyle J.L., Brown A.D.H., Palmer R.C., 2002, Genomes, multiple origins, and lineage recombination in the Glycine tomentella (Leguminosae) polyploid complex: Histone H3-D gene sequences. Evolution 56: 1388-402
• 21.Eckert Ch.G., Lui K., Bronson K., Corradini P., Bruneau A., 2003, Population genetics consequences of extreme variation in sexual and clonal reproduction in an aquatic plant. Mol. Ecol. 12: 331-44
• 22.Elena S.F., Lenski R.E., 2003, Evolution experiments with microorganisms: the dynamics and genetic bases of adaptation. Nat. Rev. Genet. 4: 457-69
• 23.Fontdevilla A., 1992, Genetic instability and rapid speciation: are they coupled? Genetica 86: 247-58
• 24.Fontdevilla A., 2005, Hybrid genome evolution by transposition. Cytogen. Gen. Res. 110: 49-55
• 25.Fusco G., 2001, How many processes are responsible for phenotypic evolution? Evol. Develop. 3(4): 273-86
• 26.Gross B.L., Rieseberg L.H., 2005, The Ecological Genetics of Homoploid Hybrid Speciation. J. Hered. 96(3): 241-52
• 27.Hadany L., Beker T., 2003, Fitness-associated recombination on rugged adaptive landscapes. J. Evol. Biol. 16: 862-70
• 28.Hadany L., Eshel I., Motro U., 2004, No place like home: competition, dispersal and complex adaptation. J. Evol. Biol. 17: 1328-36
• 29.Isoviita P., 1966, Studies on Sphagnum L. 1. Nomenclatural revision of the European taxa. Ann. Bot. Fennici 3: 199-264
• 30.Kawecki T.J., Ebert D., 2004, Conceptual issues in local adaptation. Ecol. Lett. 7: 1225-41.
• 31.Kimura M., 1956. A model of a genetic system which leads to closer linkage by natural selection. Evolution 10: 278-87
• 32.Kirkpatrick M., Ravigné V., 2002, Speciation by Natural and Sexual Selection: Models and Experiments. Am. Nat. 159: S22-35
• 33.Kraska M., Piotrowicz R., 1994, Vegetation of chosen lobelian lakes and its relation to physicochemical properties of their waters. [in:] Lobelian Lakes, characteristics functioning and protection Part. I. Kraska M., (ed.) Idee Ekologiczne 6(4): Poznań, Sorus, pp. 67-83 (in Polish with English summary)
• 34.Kraska M., Piotrowicz R., Radziszewska R., 1999, Dystrophication as the chief factor of changes in the physicochemical properties of water and vegetation of lobelian lakes of the Bory Tucholskie National Park (NW Poland). Acta Hydrobiol. 41: 127-35
• 35.Liu B., Wendel J.F., 2002, Non-Mendelian Phenomena in Allopolyploid Genome Evolution, Curr. Genom. 3
• 36.Lewontin R.C., 1971, The effect of genetic linkage on the mean fitness of a population. Proc. Nat. Acad. Sci. USA, 68: 984-86
• 37.Madlung A., Tyagi A.P., Watson B., Jiang H., Kagochi T. et al., 2005, Genomic changes in synthetic Arabidopsis polyploids. Plant J. 41: 221-230.
• 38.Madlung A., Comai L., 2004, The effect of stress on genome regulation and structure. Ann. Bot. 94( 4): 481-95.
• 39.McClintock B., 1984, The significance of responses of the genome to challenge. Science 226: 792-801.
• 40.Melosik I., 2000, Distribution of species of the Subsecunda section of Sphagnum genus in Poland. [in]: Krzakowa M., Melosik I. (eds.) The variability in Polish populations of Sphagnum taxa (Subsecunda section), according to morphological, anatomical and biochemical traits. Poznań, Bogucki Wydawnictwo Naukowe, pp. 27-47
• 41.Melosik I., Odrzykoski I., Śliwińska E., 2005, Delimitation of taxa of Sphagnum subsecundum s.l. (Musci, Sphagnaceae) based on multienzyme phenotype and cytological characters. Nov. Hedw. 80(3-4): 397-412
• 42.Melosik I., Såstad S.M., 2005, In vitro propagation of selected Sphagnum species (section Subsecunda). Lindbergia 30: 21-31
• 43.Mette M.F., Aufsatz W., van der Winden J., Matzke M. A., Matzke A. J., 2000. Transcriptional silencing and promoter methylation triggered by double-stranded RNA. EMBO J. 19: 5194-201
• 44.Mishler B.D., 1985, The morphological, developmental, and phylogenetic basis of species concepts in bryophytes. Bryologist 88: 207-14
• 45.Newton M.E., 1993, Cytogenetics of Sphagnum. Adv. Bryol. 5: 61-78
• 46.Nixon K.C., Wheeler Q.D., 1990, An amplification of the phylogenetic species concept. Cladistics 6: 211-23
• 47.Otto S.P., Whitton J., 2000, Polyploid incidence and evolution. Annu. Rev. Genet. 34: 401-37
• 48.Osborn T.C., Pires Ch., Birchler J.A., Auger D.L., Chen Z.J. et al., 2003, Understanding mechanisms of novel gene expression in polyploids. Trends Genet. 19(3): 141-7
• 49.Parker I., Rodriguez M., Loik M., 2003, An evolutionary approach to understanding the biology of invasions: local adaptation and general purpose genotypes in the weed Verbascum thapsus. Conserv. Biol. 17: 59-72
• 50.Pickaard C.S., 2000a, Nucleolar dominance: uniparental gene silencing on a multi-megabase scale in genetic hybrids. Plant Mol. Biol. 43(2-3): 163-77
• 51.Pickaard C.S., 2000b, The epigenetics of nucleolar dominance. Trends Genet. 16(11): 495-500
• 52.Proulx S.R., Phillips P.C., 2005, The Opportunity for Canalization and the Evolution of Genetic network. Am. Nat. 165(2): 147-62
• 53.Rapp R.A., Wendel J.F., 2005, Epigenetics and plant evolution. New Phytol. 81-91
• 54.Razin A., 1998, CpG methylation, chromatin structure and gene silencing - a three wat connection. EMBO J. 17: 4905-8
• 55.Rejmánek M., 2000, Invasive plants: approaches and predictions. Australian Ecol. 25: 497-506
• 56.Reyna-Lopez G.E., Simpson J., Ruiz-Herrera J., 1997, Differences in DNA methylation patterns are detectable during the dimorphic transition of fungi by amplification of restriction polymorphism. Mol. Genet. Genom., 253: 703-10
• 57.Roelofs J.G.M., 1983, Impact of acidification and eutrophication on macrophyte communities in soft waters in The Netherlands. 1. Field studies. Aquat. Bot. 17: 139-55
• 58.Rosenthal D.M., Schwarzbach A.E., Donovan L.A., Raymond O., Rieseberg L.H., 2002, Phenotypic differentiation between three ancient hybrid taxa and their parental species. Int. J. Plant. Sci. 163(3): 387-98
• 59.Såstad S. M., 2004, Patterns and mechanisms of polyploid speciation in bryophytes. [in:] Plant Species-level Systematics: New Perspectives on Pattern and Process. Bakker, F.T Chatrou L. W., Gravendeel B., Pelser P. (eds.) Ruggell, Gantner Verlag [Regnum Veget. 143]
• 60.Shaw A.J., Melosik I., Cox C.S., 2005, Divergent and reticulate evolution in closely related species of Sphagnum section Subsecunda. Bryologist 108(3): 363-76
• 61.Shaw A.J., Pokorny L., Shaw B., Circa M., Boles S., Szövényi P., 2008, Genetic structure and genealogy in the Sphagnum subsecundum complex (Sphagnaceae: Bryophyta), Molecular Phylogenetics and Evolution 48: 304-317
• 62.Simmons M.P., Clevinger C.C., Savolainen V., Archer R.H., Mathews S., Doyle J.J., 2001, Phylogeny of the Celastraceae inferred from phytochrome B gene sequence and morphology. Am. J. Bot. 88(2): 313-25
• 63.Snaydon R.W., 1984, Infraspecific variation and its Taxonomic implications. Systematics Association Special Volume No. 25, "Current Concepts in Plant Taxonomy", Heywood V. H., Moore D. M. (eds.) London and Orlando, Academic Press, 203-18.
• 64.Sokal R.R., Crovello T.J., 1970, The biological species concept: a critical evaluation. Am. Nat. 104: 127-53
• 65.Soltis D.E., Soltis P.S., 1995, The dynamic nature of polyploid genomes. Proc. Natl. Acad. Sci USA 92: 8089-91
• 66.Soltis D.E., Soltis P.S., 1999, Polyploidy: recurrent formation and genome evolution. Tree 14(9): 348-52
• 67.Soltis P.S., Soltis D.E., 2000, The role of genetic and genomic attributes in the success of polyploids. Proc. Nat. Acad. Sci. USA 97(13): 7051-7
• 68.Stearns S.C., 1994, The evolutionary links between fixed and variable traits. Acta Paleont. Pol. 38: 215-32
• 69.Swofford D.L., 2001, PAUP: phylogenetic analysis using parsimony (and other methods). Vers. 40b8. Sunderland, Mass, Sinauer Associates
• 70.Schlichting C. D., Smith H., 2002. Phenotypic plasticity: linking molecular mechanisms with evolutionary outcomes. Evol. Ecol. 16: 189-211
• 71.Stenøien H.K., Såstad S.M., 2001, Genetic variability in bryophytes: does mating system really matter? J. Bryol. 23: 313-18
• 72.Thompson F.L., Eckert C. G., 2004, Trade-offs between sexual and clonal reproduction in an aquatic plant: experimental manipulation vs. phenotypic correlations. J. Evol. Biol. 17: 581-92
• 73.Turner B.M., 2000, Histone acetylation and an epigenetic code. Bioessay 22: 836-45
• 74.Ungerer M.C., Baird S.J.E., Pan J., Rieseberg L.H., 1998, Rapid hybrid speciation in wild sunflowers. Proc. Natl. Acad. Sci. USA 95: 11757-62
• 75.Waddington C.H., 1942, The canalization of development and genetic assimilation of acquired characters. Nature 150: 563-65
• 76.Wang J., Tian L., Lee H-S., Wei N.E., Jiang H., Comai L., Watson B., Madlung A., Osborn T.C., Doerge RW., Chen ZJ., 2006, Genome wide nonadditive gene regulation in Arabidopsis allotetraploids. Genetics 172: 507-17
• 77.De Visser et al., 2003, Perspective: evolution and detection of genetic robustness. Evolution 57(9): 1959-72
• 78.De Visser J.A., Rozen G.M. and D.E., 2005, Limits to adaptation in asexual populations, J. Evol. Biol. 18: 779-88
• 79.Van Valen L, 1976, Ecological species, multispecies, and oaks. Taxon 25: 233-39
• 80.Warnstorf C, 1911, Sphagnales-Sphagnaceae (Sphagnologia Universalis), In: Engler A. (ed.) Das Pflanzenreich (Regni Vegetabilis Conspectus), 5, Leipzig. Engelmann, pp. 546
• 81.Williams J.D., Meffe G.K., 1998, Nonindigenous Species. In: Status and Trends of the Nation's Biological Resources. Volume 1. Reston, Virginia: United States Department of the Interior, Geological Survey
• 82.Wojtuń B., 2006, Peat mosses (Sphagnaceae) in mires of the Sudetes Mountains (SW Poland): A florystic and ecological study, Wrocław Agricultural University of Wrocław, pp. 225.
• 83.Wolffe A. P., Matzke M. A., 1999, Epigenetics: regulation through repression, Science 286: 481-6
• 84.Xu K., Xu X., Fukao T., Canlas P., Maghirang-Rodriguez R., Heuer S., Ismail AM., Bailey-Serres J., Ronald PC., Mackill D. J., 2006, Sub1A is an ethylene-response-factor like gene that confers submergence tolerance to rice, Nature 442(10): 705-8